Low-lying Baryons with spin 1/2 in Two-flavor Lattice QCD

Abstract

Low-lying baryons with spin 1/2 are analyzed in full (unquenched) lattice QCD. We construct 2 × 2 cross correlators from flavor SU(3) "octet" and "singlet" baryon operators, and diagonalize them so as to extract information of two low-lying states for each parity. The two-flavor CP-PACS gauge configurations are used, which are generated in the renormalization-group improved gauge action and the O(a)-improved quark action. Three different β's, β = 1.80, 1.95 and 2.10, are employed, whose corresponding lattice spacings are a = 0.2150, 0.1555 and 0.1076 fm. For each cutoff, we use four hopping parameters, ( val, sea), which correspond to the pion masses ranging about from 500 MeV to 1.1 GeV. Results indicate that there are two negative-parity states nearly degenerate at around 1.6 GeV, while no state as low as (1405) is observed. By decomposing the flavor components of each state, we find that the lowest (1st-excited) negative-parity state is dominated by flavor-singlet (flavor-octet) component. We also discuss meson-baryon components of each state, which has drawn considerable attention in the context of multi-quark pictures of (1405).